Design and Analysis of Low Power MAC for DSP Processor

2023 International Conference on Artificial Intelligence and Applications (ICAIA) Alliance Technology Conference (ATCON-1) Pub Date : 2023-04-21 DOI:10.1109/ICAIA57370.2023.10169461

R. Mishra, Puran Gour, Sandeep Dhariwal, Manish Kumar, Anubhav Anand

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Abstract

This research article represents low-power MAC architecture, which is one of the main building blocks of DSP processors. The MAC unit consists of three important blocks: a multiplier for multiplication, an adder for addition, and an accumulator for storing the results. So, by reducing the power dissipation of multiplier and adder units, we can propose a low-power MAC architecture. In this paper, first a low-power Baugh-Wooley multiplier (with a proposed 2S-T full adder design) and a conventional Baugh-Wooley multiplier (with an existing 2S-T full adder design) are analyzed using Cadence Virtuoso. The proposed full-adder-based Baugh-Wooley multiplier exhibits 32.41 microwatts of power dissipation, which is much less than the conventional Baugh-Wooley multiplier’s power consumption of 2.743 milliwatts. After multipliers, a MAC unit with a conventional multiplier is also simulated with 2.743 milliwatts and using the proposed multiplier with a significant power reduction of 0.5504 milliwatts.

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DSP处理器低功耗MAC的设计与分析

本文研究了低功耗MAC架构，它是DSP处理器的主要组成部分之一。MAC单元由三个重要的块组成:用于乘法的乘法器、用于加法的加法器和用于存储结果的累加器。因此，通过降低乘法器和加法器的功耗，我们可以提出一个低功耗的MAC架构。本文首先使用Cadence Virtuoso分析了低功耗Baugh-Wooley乘法器(采用提出的2S-T全加法器设计)和传统的Baugh-Wooley乘法器(采用现有的2S-T全加法器设计)。基于全加法器的Baugh-Wooley乘法器的功耗为32.41微瓦，远低于传统的Baugh-Wooley乘法器的功耗(2.743毫瓦)。在使用乘法器之后，还对使用传统乘法器的MAC单元进行了2.743毫瓦的模拟，并使用所提出的乘法器进行了功耗显著降低0.5504毫瓦的模拟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 International Conference on Artificial Intelligence and Applications (ICAIA) Alliance Technology Conference (ATCON-1)

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